Semantic-based Material Twin and Co-Simulation Platform for Solid Oxide Fuel Cells - MEDIATE

Project summary

MEDIATE answers a need for an ontology-based, knowledge-assisted method and platform to capture, structure, configure and reuse knowledge for designing materials and engineering systems for electrochemical fuel cells. In parallel, MEDIATE investigates technical problems of industrial and societal relevance that regards improved design, functionally and performance of electrochemical fuel cells. MEDIATE Develops a knowledge-based physical-based and data-driven computational method and platform for modelling and design of electrochemical fuel-cells. The proposed framework uses an ontology-based approach for semantic knowledge management and interoperability. Potential applications: Design, durability and performance evaluation of electrochemical fuel cells. Main Impact: Reduction of burden in the design of complex multiscale and multi-physical materials/system and abstraction of the knowledge required for developing new material/product.